Hero image

Doctorharves's Shop

Average Rating3.55
(based on 13 reviews)

I am a 5th-year science teacher from Auckland New Zealand, specialising in physics and chemistry. I am also a Microsoft innovative education expert for 2017 and am active in #scichatnz and #teachmeetnz.

158Uploads

28k+Views

3k+Downloads

I am a 5th-year science teacher from Auckland New Zealand, specialising in physics and chemistry. I am also a Microsoft innovative education expert for 2017 and am active in #scichatnz and #teachmeetnz.
Electromagnetism
doctorharvesdoctorharves

Electromagnetism

(0)
This is a senior physics lesson on electromagnetism consisting of a power point presentation including worked examples and learning tasks.
Electromagnetic induction
doctorharvesdoctorharves

Electromagnetic induction

(0)
This senior physics lesson involves students learning about electromagnetic induction through worked examples and learning tasks. Induction through magnets moving through an electrical field and a wire moving through a magnetic field is discussed.
Moving charges in a magnetic field
doctorharvesdoctorharves

Moving charges in a magnetic field

(0)
A senior physics lesson in the form of a power point explaining the concepts around the properties of moving charges in a magnetic field. The lesson also includes student tasks to test understanding of the lesson and worked examples.
Teaching guide for electricity
doctorharvesdoctorharves

Teaching guide for electricity

(0)
This is a PowerPoint for teaching electricity especially circuit electricity by analogies. For example the volt as a person carrying buckets of water representing energy. The lesson incorporates both parallel and series circuits and covers current and voltage in both.
Potential difference
doctorharvesdoctorharves

Potential difference

(0)
This senior physics lesson is in the form of a power point with worked examples and practise exercises. The lesson links energy to electricity and forces by linking work done on a point charge in an electrical field
Magnetism and electromagnetism
doctorharvesdoctorharves

Magnetism and electromagnetism

(0)
A senior physics lesson in the form of a power point explaining the concepts around magnetism and the link to electromagnetism. The lesson also includes student tasks to test understanding of the lesson.
Electromagnets
doctorharvesdoctorharves

Electromagnets

(0)
A senior physics lesson in the form of a power point explaining the concepts around the properties of electromagnets. The lesson also includes student tasks to test understanding of the lesson.
Properties of electric field lines
doctorharvesdoctorharves

Properties of electric field lines

(0)
A senior physics lesson in the form of a power point explaining the concepts around the properties of electric field lines. The lesson also includes student tasks to test understanding of the lesson.
Mass energy equations in nuclear physics
doctorharvesdoctorharves

Mass energy equations in nuclear physics

(0)
This senior physics equation introduces the concept of mass energy and how we can use the equation E=MC2 to make calculation about energy released in nuclear reactions. The lesson in the form of a power point includes worked examples and also student activities to test learning.
Dichotomous Keys and classification
doctorharvesdoctorharves

Dichotomous Keys and classification

(0)
The presentation and associated activities are designed to introduce the classification of living things and also so we as scientists classify organisms using keys. Designed as an introduction for juniors the presentation included a series of activities which can be done individually or in groups.
Ionisation Energy
doctorharvesdoctorharves

Ionisation Energy

(0)
This powerpoint presentation provides A-level students the periodic trend of ionisation energies and provides an understanding for the reasons for the trend.
Electron Configuration
doctorharvesdoctorharves

Electron Configuration

(0)
This powerpoint presentation outlines for A-level students how to develop electron configurations for the elements. It also outlines the shapes of the orbitals associated with these electron configurations.
The Polarity of Molecules
doctorharvesdoctorharves

The Polarity of Molecules

(0)
This is a powerpoint presentation designed for A level Chemistry designed to develop student understanding of how the polarity of molecules develops. This is linked to dipole moments and how this is related to the shape of molecules. The polarity is linked to bonding type as well.
Periodic Trends - Electronegativity
doctorharvesdoctorharves

Periodic Trends - Electronegativity

(0)
This is a powerpoint presentation outlining how electronegativity of the elements changes in the periodic table. The lesson starts with a do now related to electron configuration. This lesson is designed for A level Chemistry level students.
Electrochemical Cells
doctorharvesdoctorharves

Electrochemical Cells

(0)
This A-level powerpoint presentation outlines to students electrochemical cells. In particular, the formation of said cells and the rules associated with writing them.
The atomic structure of the elements
doctorharvesdoctorharves

The atomic structure of the elements

(0)
These powerpoint presentations outline for A-level students how the position of an element in the periodic table is determined. The presentations include starter activities on electronic configuration. The presentations highlight how the properties of the elements change depending on their position in the periodic table. These properties include atomic radii and electronegativity. Finally, these properties are then used to explain the shape and polarity of molecules and linked to the bonding associated with these molecules.
Precipitation reactions
doctorharvesdoctorharves

Precipitation reactions

(0)
This resource is designed for senior chemistry around the formation of precipitates and complex ions from soluble ionic salts solutions. The power points and videos are designed for a flipped classroom model. The final activity tests students understanding. The videos outline the use of ionic equations. delve into the molecular interactions and link this to laboratory observations.